Slideshare uses cookies to improve functionality and performance, and to provide you with relevant advertising. If you continue browsing the site, you agree to the use of cookies on this website. See our User Agreement and Privacy Policy.

Slideshare uses cookies to improve functionality and performance, and to provide you with relevant advertising. If you continue browsing the site, you agree to the use of cookies on this website. See our Privacy Policy and User Agreement for details.

Carbohydrates

2.
Carbohydrates
Carbohydrates
are broadly defined as polyhydroxy
aldehydes or ketones and their derivatives
or
as
substances that yields one of these compounds
 Composed of carbon, hydrogen, and oxygen
 Functional groups present include hydroxyl groups
 -ose indicates sugar
2

3.
Carbohydrates are the most abundant of all the organic compounds in nature.
 In plants, energy from the Sun is used to convert carbon dioxide and water into
the carbohydrate glucose.
 Many of the glucose molecules are made into long-chain polymers of starch
that store energy.
 About 65% of the foods in our diet consist of carbohydrates.
 Each day we utilize carbohydrates in foods such as bread, pasta, potatoes, and
rice.
 Other carbohydrates called disaccharides include sucrose (table sugar) and
lactose in milk.
 During digestion and cellular metabolism, carbohydrates are converted into
glucose,
 which is oxidized further in our cells to provide our bodies with energy and to
provide the cells with carbon atoms for building molecules of protein, lipids, and
nucleic acids.
 In plants, a polymer of glucose called cellulose builds the structural framework.
Cellulose has other important uses, too.
 The wood in our furniture, the pages in your notebook, and the cotton in our
clothing are made of cellulose.

4.
Function of Carbohydrates in Cells




Major source of energy for the cell
Major structural component of plant cell
Immediate energy in the form of GLUCOSE
Reserve or stored energy in the form of GLYCOGEN
Compiled and Edited by Dr.Syed
Ismail,MAU, Parbhani
4

5.
Classification of Carbohydrates
• Carbohydrates are classified according to the
number of subunits that make them up
3 Types of Carbohydrates
 Monosaccharides
 Oligosaccharides
Disaccharides
Trisaccharides
Tetrasaccharides
 Polysaccharides
Compiled and Edited by Dr.Syed
Ismail,MAU, Parbhani
5

6.
Monosaccharides are simple sugars, or the
compounds which possess a free aldehyde (CHO) or ketone
(C=O) group and two or more hydroxyl (OH) groups. They
are the simplest sugars and cannot be hydrolysed further
into smaller units.
Monosaccharides contain a single carbon chain and
are classified on the basis of number of carbon atoms they
possess, and as aldoses or ketoses depending upon their
groups.
6

9.
Steriochemistry
Optical isomers (= enantiomers) differ from each other in the disposition of the various atoms
or groups of atoms in space around the asymmetric carbon atom. These are, in fact, the mirror
image of each other. These may also be likened to left- and right-handed gloves.
One form in which H atom at carbon 2 is projected to the left side and OH group to the right is
designated as D-form and the other form where H atom is projected to the right side and OH
group to the left is called as L-form (note the use of small capital letters D and L)
For example, the glyceraldehyde has only one asymmetric carbon atom (numbered as 2) and it
can, therefore, exist in 2 isomeric forms :
9
Compiled and Edited by Dr.Syed Ismail,MAU, Parbhani

11.
Properties of monosaccharides
1.
Mutarotation : when a monosaccharide is dissolved in water, the optical rotatory power
of the solution gradually changes until it reaches a constant value. For ex : when Dglucose is dissolved in water, a specific rotation of +112.2o is obtained, but this slowly
changes , so that at 24h the value has become +52.7o. This gradual change in specific
rotation is known as mutarotation. This phenomenon is shown by number of pentoses,
hexoses and reducing disaccharides.
2. Glucoside formation : when D-glucose solution is treated with methanol and HCl, two
compounds are formed, these are α – and β-D- glucosides. Thus, formed glucosides are
not reducing sugar and also doesnot show phenomenon of mutarotation
3. Reducing power : Sugars having free or potentially free aldehyde or ketone group have an
ability to reduce the cupric copper to cuprous
Reducing sugar + 2 Cu++ 
(cupric)
oxidized + 2Cu+
sugar
(cuprous)
4. Oxidation / Reduction: The alcoholic OH, aldehyde (COH) or keto (C=O) group are oxidized to
carboxyl group with certain oxidizing agents. The oxidation may be brought under mild or
with vigorous oxidizing condition
i. With mild oxidant like BrH2O : In this group only aldehyde is oxidized to produce
gluconic acid (monocarbonic). Ketoses do not respond to this reaction.
Compiled and Edited by Dr.Syed
Ismail,MAU, Parbhani
11

12.
ii. With strong Oxidizing agent like Conc HNO3 : Both aldehyde or ketone groups are oxidized
to yield dicarboxylic acids
iii. Oxidation with metal hydroxides: Metal hydroxides like Cu(OH)2,
Ag OH oxidize free aldehyde or ketone group of mutarotating sugar and reduce themselves
to lower oxides of free metals
Reduction: The aldehyde or ketone group present can be reduced to its respective alcohol
with sodium amalgum.
For ex: Fructose and glucose give the hexahydric alcohol i.e. Sorbitol and Mannitol
Dehydration : The monosaccharides when treated with Conc H2SO4, it get dehydrated to from
5 – hydroxyl – methyl furfural derivative
Methylation or Esterification : The glucosidic and alcoholic OH group of mono saccharides and
reducing disaccharides react with acetylating agent like acetic anhydride in pyridine to
from acetate derivatives called esters.
12

13.
Carbohydrates with free carbonyl groups or in hemiacetal form give positive
tests to Benedict’s and Fehling’s reagents
without having been hydrolyzed are referred as ‘reducing’ sugars ;
others (i.e., the acetal types) are then ‘non-reducing’ sugars

16.
Trisaccharides: Composed of three monosaccharide ex: Raffinose (Formed by one
mole of each i.e. glu, fruc, galac)
Tetrasaccharides :
ex: Stachyose (composed of two moles of galactose one mole of glu & one mole of fruct)
16

18.
A great majority of carbohydrates of nature
occur as polysaccharides
Chemically, the polysaccharides may be distinguished into
homopolysaccharides, which yield, on hydrolysis, a single monosaccharide and
heteropolysaccharides ,which produce a mixture of monosaccharides on
hydrolysis. Based on their functional aspect, the polysaccharides may be
grouped under two heads :
(a) Nutrient (or digestible) polysaccharides. These act as metabolic reserve of
monosaccharides in plants and animals, e.g., starch, glycogen and inulin.
(b) Structural (or indigestible) polysaccharides. These serve as rigid
mechanical structures in plants and animals, e.g.,cellulose, pectin and chitin and
also hyaluronic acid and chondroitin.

20.
Amylose: is in the form of straight chain linked together with α- 1-4,
linkages indicating 300 – 5,500 glucose units per molecules, molecular
wt range from 105 to 106. Generally it is water soluble and gives blue
colour with iodine.
Amylopectins:
It contain beside straight chain several branched
chains, which are arranged in α—1-4 and β-1-6 linkage units, one
molecule of amylopectin contains 50,000 to 5,00,000 glucose molecules,
molecular wt. range from 107 to 108, it is insoluble in water and gives
purple colour with iodine .
20

22.
Types of Polysaccharides
3. Glycogen
The storage form of glucose in the body.
Stored in the liver and muscles.
Found in tiny amounts in meat sources.
Not found in plants.
Not a significant food source of carbohydrate.
22

23.
Some clinical concepts
•
•
•
•
•
•
•
•
•
•
Glucose is the most important energy source of carbohydrates to the mammals
(except ruminants). The bulk of dietary carbohydrate (starch) is digested and finally
absorbed as glucose into the body.
Dextrose (glucose in solution in dextrorotatory form) is frequently used in medical
practice.
Fructose is abundantly found in the semen which is utilized by the sperms for
energy. Several diseases are associated with carbohydrate's e.g., diabetes mellitus,
glycogen storage diseases galactosemia.
Accumulation of sorbitol and dulcitol in the tissues may cause certain pathological
conditions e.g. cataract, nephropathy.
The non-digestible carbohydrate cellulose plays a significant role in human
nutrition.
These include decreasing the intestinal absorption of glucose and cholesterol, and
increasing bulk of feces to avoid constipation.
The mucopolysaccharide hyaluronic acid serves as lubricant and shock absorbent
in joints.
The mucopolysaccharide heparin is an anticoagulant( prevents blood clotting).
The survival of Antarctic fish below -2oC is attributed to the antifreeze
glycoproteins.
streptomycin is a glycoside employed in the treatment of tuberculosis